Perforating gun drop sub

ABSTRACT

A perforating gun assembly comprises a drop sub linking the firing head to the gun tube or tubes. The drop sub includes a 360° perimeter shaped charge explosive for severing pipe having an axial bore to accommodate a pass-through of the perforation charge detonation chord. Consequently, the severing tool is detonated by the traverse of a detonation wave along the chord length to disconnect the perforating gun prior to detonation of the perforation charges.

CROSS-REFERENCE TO RELATED APPLICATION

Not applicable

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to equipment and processes for petroleumwell completion and production. In particular, the invention pertains towell perforation equipment and processes for mineral productionenhancement.

SUMMARY OF THE INVENTION

Well perforation is a term that is used in the well drilling arts todescribe a process of perforating the walls of a fluid mineralproduction pipe with multiple apertures. Such apertures are clustered ina predetermined pattern within the geologic zone of a fluid mineralbearing strata to facilitate flow of the mineral into the productionpipe and up to the surface. The term is also applied to the process ofperforating a well casing and cement collar for the same purpose. Thewell perforation process may also be used to fracture or open a geologicformation along the production face of the well bore wall.

Perforation equipment traditionally includes a length of tube or pipe,called a “perforating gun”, having shaped charge explosives set in ahelical pattern along the length and around to perimeter of the tube.These shaped charges are designed and aligned to emit a lineallyconcentrated stream of explosion gas radially from the gun axis. A gunmay comprise a multiplicity of such tubes mounted with shaped chargesconnected in series, end-to-end.

Perforating guns are suspended within a well for placement at thedesired perforation position by means of a tubing string or wireline.The gun is secured to the end of the tubing string or wireline.

Traditional perforating gun assembly usually provides a firing head atthe upper end. The firing head is a subsection of tube that containsthose devices necessary to convert an action or impulse initiated at thewell surface into an explosive detonation. Included among such actionsis dropping a weight such as a rod for example, along the bore of thesuspension pipe or tubing to impact a percussion primer in the firinghead. The primer initiates a detonation chord which carries a detonationwave to all of the shaped charges, sequentially. In another case, thefiring head may comprise an exploding bridge wire (EBW) or explodingfoil initiator (EFI) detonator as described by U.S. Pat. No. 5,347,429for example. The EBW or EFI is initiated by an electric pulse carried onan electric conductor integrated with the wireline support structure toinitiate the detonation chord.

There are certain circumstances and conditions in the art of deep welldrilling for petroleum, under which a perforating gun is disconnectedfrom the supporting wireline or tubing string upon discharge of theperforation charges. When disconnected, the gun is completely severedfrom any surface linked support and allowed to fall further along thewellbore; usually below the mineral production zone. Often, the depletedgun is abandoned in an extended portion of the wellbore.

The sequence of such a well perforation gun disconnect procedure has,traditionally been perceived in the order of a gun discharge followed bythe gun disconnect. However, this sequence has been found to be lessthan satisfactory due to the consequences of detonation shock when thegun discharges. Prior art disconnect devices have been mechanicallatching assemblies subject to structural distortion or destructioncaused by detonation shock. Hence, a planned disconnect procedure maynot be possible after the gun has discharged.

It is an object of the present invention, therefore, to provideequipment and procedures to disconnect a perforating gun from surfacesupport structure prior to discharge of the explosive perforatingcharges.

It is also and object of the present invention to provide a disconnectsub between a firing head and gun tube having no mechanical latches orlinks subject to operational binding or warping.

BRIEF DESCRIPTION OF THE DRAWINGS

The advantages and further features of the invention will be readilyappreciated by those of ordinary skill in the art as the same becomesbetter understood by reference to the following detailed descriptionwhen considered in conjunction with the accompanying drawings in whichlike reference characters designate like or similar elements throughout.

FIG. 1 is a section of perforating gun firing assembly relevant to thepresent invention.

FIG. 2 is a cross-sectional detail of the present drop sub.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

As used herein, the terms “up” and “down”, “upper” and “lower”,“upwardly” and downwardly“, “upstream” and “downstream”; “above” and“below”; and other like terms indicating relative positions above orbelow a given point or element are used in this description to moreclearly describe some embodiments of the invention. However, whenapplied to equipment and methods for use in wells that are deviated orhorizontal, such terms may refer to a left to right, right to left, orother relationship as appropriate. Moreover, in the specification andappended claims, the terms “pipe”, “tube”, “tubular”, “casing”, “liner”and/or “other tubular goods” are to be interpreted and definedgenerically to mean any and all of such elements without limitation ofindustry usage.

FIG. 1 represents the essential invention environment showing a partialperforating gun assembly including a firing head 10, a drop sub 12 and aperforating gun tube 14. These are independently severable units thatmay be unitized by integrally threaded box and pin joints. Such anassembly may be suspended into a well bore by wireline, coiled tubing orpipe joints.

In traditional practice, the perforating gun 14 is a tube having amultiplicity of explosive perforating charges 16 set within the tubeshell to discharge radially against a production pipe, well casing orraw bore wall. The objective of such perforations is to facilitate theflow of in situ fluids, gas or crude petroleum, from a fluid bearingearth stratum into an inner flow chamber. These explosive charges 16 areoften set in a helical pattern around and along the length of the guntube. While numerous methods have been used to detonate such perforatingcharges, a continuous detonating chord 28 (FIG. 2) running the length ofthe gun tube is representative. The chord 28 is connected in proximityto detonation boosters respective to each charge 16 for detonating eachof the charges sequentially as the detonation wave carried by the chordprogresses along the gun length.

Detonating chord 28 ignition my be initiated from the surface by apercussion primer or by an exploding bridge wire (EBW) exploding foilinitiator (EFI), for example. In the case of the percussion detonator, apercussion weight is dropped into a gun supporting coiled tube or pipestring. The percussion weight falls along the tubing bore to impact apercussion detonator. In the case of an EBW or EFI, an electric pulse istransmitted by wireline conduit to initiate the detonation. The conduitis often integrated into the windings of a wireline support string.

With respect to FIG. 2, the drop sub 12 comprises a tubular housinghaving box threads 24 at one distal end to receive meshing assembly pinthreads on a firing head connector 20. O-rings 23 seal the threadedconnector joint from moisture invasion. Pin threads 21 secure theconnector 20 to the firing head 10. Firing head O-rings (not shown) sealagainst the sealing groove 22. A bore 25 along the connector 20 axisaccommodates detonating chord 28.

A gun connector 30 is secured to the opposite end of the drop subhousing by assembly pin threads 33 meshing with box threads in the dropsub housing. O-rings 34 seal this joint from moisture invasion. Threads31 secure the gun 14 to the connector 30 with an O-ring moisture seal32. A bore 35 along the connector 30 axis facilitates continuity of thedetonation chord 28 through the gun connector 30 into the gun 14.

A chamber 42 in the drop sub 12 receives a shaped charge tubing cutter40 in alignment with a cutting window 44. The cutting window 44 is areduced thickness section of pipe wall annulus.

The tubing cutter explosive 40 is compressed between top and bottom endplates having an axial aperture to accommodate the detonating chord 28.Between the end plate bosses 48, the cutter explosive 40 is in directface exposure to the detonating chord 28

When the gun 14 is located at a desired position along the wellbore, aninitiating event is performed to begin the detonation sequence byactivating the firing head 10. The firing head 10 ignites the detonationchord 28

As a detonation wave travels the chord 28 length, the tube cuttingcharge 40 is discharged first thereby severing the gun 14 from thefiring head 10 and any connection with the surface. However, thedetonation wave continues along its length through the gun, detonatingthe perforation charges 16 along the way.

The detonation wave traverses the length of chord 28 in a fewmicroseconds. However, the gravity driven acceleration of the gun 14,comparatively, is much slower. Hence, although the structural link 12between the gun and any up-hole support from the firing head has beensevered, the perforation charges will have discharged and performedtheir intended function before any significant gun movement.

Although the invention disclosed herein has been described in terms ofspecified and presently preferred embodiments which are set forth indetail, it should be understood that this is by illustration only andthat the invention is not necessarily limited thereto. Alternativeembodiments and operating techniques will become apparent to those ofordinary skill in the art in view of the present disclosure.Accordingly, modifications of the invention are contemplated which maybe made without departing from the spirit of the claimed invention.

1. A perforating gun assembly comprising the combination of a firinghead, a drop sub and a gun tube, each as a severable unit, said firinghead comprising ignition means for a detonation chord; said drop subcomprising shaped charge means for explosively severing a pipe sectionlinking said firing head and gun tube, said shaped charge means havingan aperture therethrough for receiving a detonation chord; said gun tubecomprising a plurality of explosive well perforating means, saidperforating means adapted for sequential ignition by a detonation chord;and, a continuous detonation chord common to said firing head, saidshaped charge means and said explosive perforation means.
 2. Aperforating gun assembly as described by claim 1 wherein said firinghead comprises exploding bridge wire means for igniting said detonationchord.
 3. A perforating gun assembly as described by claim 1 whereinsaid firing head comprises exploding foil initiator means for ignitingsaid detonation chord.
 4. A perforating gun assembly as described byclaim 1 wherein said firing head comprises percussion primer means forigniting said detonation chord.
 5. A drop sub adapted for connectionbetween a firing head and a well perforating gun, said drop subcomprising a pipe section between first pipe assembly threads integralwith one axial end of said pipe section and second pipe assembly threadsintegral with an opposite axial end of said pipe section, shaped chargeexplosive means disposed within said pipe section between said first andsecond assembly threads for severing said pipe section; and an axialignition aperture through said explosive means for receiving adetonation chord threaded through said ignition aperture.
 6. A method ofdetonating perforation charges in a well perforation gun comprising thesteps of: combining a serially aligned assembly including a detonationchord firing head, a shaped charge pipe cutting sub and a perforatinggun, said pipe cutting sub having a shaped charge pipe cutter with acentral ignition aperture therethrough; threading a detonation chordfrom said firing head through said shaped charge ignition aperture;positioning said assembly at a predetermined location within a wellbore; activating said firing head to initiate a detonation wave alongsaid detonation chord; detonating said shaped charge pipe cutter by saiddetonation wave to sever said assembly; and, detonating perforatingcharges within said perforation gun by said detonation wave afterseverance of said assembly.